Energy is being emitted from the surface of a black body at 127°C the rate of 1.0 x 106 J/sm2. The temperature of the black body at which the rate of energy emission is 16.0 x 10° J/sm2 will be
7540C
5270C
2540C
5080C
A body of specific heat 0.2 kcal/ kg° C is heated through 100°C. The percentage increase in its mass is
9%
9.3×10-11 %
10%
None of these
A raft of wood of mass 120 kg floats in water. The weight that can be put on the raft to make it just sink, should be (d raft = 600 kg/m3)
80 kg
50 kg
60 kg
30 kg
A monoatomic gas supplied the heat Q very slowly keeping the pressure constant. The work done by the gas will be
A perfect gas is found to obey the relation PV3/2 = constant during an adiabatic process. If such a gas initially at a temperature T, is compressed to half of its initial volume, then its final temperature will be :
2 T
4T
(2)1/2 T
2 (2)1/2 T
In isothermal process, which of the following is not true?
Temperature remains constant
Internal energy does not change
No heat enters or leaves the system
none of the above
Which of the following processes is reversible?
Transfer of heat by radiation
Electrical heating of a nichrome wire
Transfer of heat by conduction
Isothermal compression
An ideal gas heat engine operates in Carnot cycle between 227o C and 127o C. It absorbs 6 × 104 cal of heat at higher temperature. Amount of heat converted to work is
2.4 × 104 cal
6 × 104 cal
1.2 × 104
4.8 × 104 cal
Which of the following parameters does not characterise the thermodynamic state of matter?
Temperature
Pressure
Work
Volume
The work of 146 kJ is performed in order to compress one kilo mole of a gas adiabatically and in this process the temperature of the gas increases by 7°C. The gas is (R= 8.3J mol-1 K-1 )
diatomic
triatomic
a mixture of monoatomic and diatomic
monoatomic
A.
diatomic
In an adiabatic process, the system is insulated from the surroundings and heat absorbed or released is zero
For adiabatic process
dQ = 0
dU = -ΔW
⇒ nCV dT = + 146 × 103 J
[ f → degree of freedom ]
f = 5.02 ≈ 5
So, it is diatomic gas.